Bosch Appliances Portable Speaker LBC 325X User Manual

INTELLIVOX DDC  
Installation Manual  
EN Active Line Array Loudspeakers  
LBC 325x Series  
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Intellivox DDC | Installation Manual | Contents  
EN 4  
Figure and Table lists.  
Fig 1  
Fig 2  
Fig  
LBC 3253/00 Intellivox-2c shown without front grill. . . . . . . . . . . . . . . . . . . . . . . . .5  
WAGO massive to stranded wire clamp. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8  
3Intellivox connector block.  
.
.
.
.
.
.
.
Fig 4  
Fig 5  
WAGO 231 cross-section. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10  
Connecting a WAGO 231. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10  
Fig 6  
Fig 7  
Fig 8  
Fig 9  
Fig 10  
Fig 11  
Fig 12  
Fig  
Standard Intellivox wall bracket, all dimensions in mm. . . . . . . . . . . . . . . . . . . . . .10  
LBC 3253/00 Intellivox-2c dimensions, all measures in mm. . . . . . . . . . . . . . . . . .11  
Ground configuration of the Intellivox chassis. . . . . . . . . . . . . . . . . . . . . . . . . . . . .14  
Standard grounding configuration. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14  
Grounding configuration with totally decoupled audio ground. . . . . . . . . . . . . . . . .15  
Grounding configuration with low frequency decoupled audio ground. . . . . . . . . .15  
Ground configuration with audio ground partly decoupled for low frequencies. . .16  
13Optional  
high  
frequency  
decoupling  
for  
70  
V
/
100  
Fig 14  
Fig 15  
Fig 16  
Fig 17  
Fig 18  
Fig 19  
Fig 20  
Fig 21  
Fig 22  
Fig  
Structure of the RS-485 network. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17  
Connection of twin twisted network cable to the unit. . . . . . . . . . . . . . . . . . . . . . . .18  
Wiring configuration using asymmetrical cable type. . . . . . . . . . . . . . . . . . . . . . . . .20  
Wiring configuration using RS-485 network cable type. . . . . . . . . . . . . . . . . . . . . .21  
Wiring configuration at the sensor using asymmetrical cable type. . . . . . . . . . . . . .21  
Wiring configuration at the sensor using RS-485 network cable type. . . . . . . . . . . .21  
LBC 3251/00 Intellivox-1b dimensions, all measures in mm. . . . . . . . . . . . . . . . . .22  
LBC 3252/00 Intellivox-2b dimensions, all measures in mm. . . . . . . . . . . . . . . . . .23  
LBC 3252/10 Intellivox-2b dimensions, all measures in mm. . . . . . . . . . . . . . . . . .24  
23LBC/00253 3 Intellivox-2c  
dimensions,  
all  
measures  
in  
mm.  
.
.
Fig 24  
Fig 25  
Fig 26  
Fig 27  
Fig 28  
LBC 3253/10 Intellivox-2c dimensions, all measures in mm. . . . . . . . . . . . . . . . . .26  
LBC 3254/00 Intellivox-4c dimensions, all measures in mm. . . . . . . . . . . . . . . . . .27  
LBC 3254/10 Intellivox-4c dimensions, all measures in mm. . . . . . . . . . . . . . . . . .28  
LBC 3256/00 Intellivox-6c dimensions, all measures in mm. . . . . . . . . . . . . . . . . .29  
LBC 3256/10 Intellivox-6c dimensions, all measures in mm. . . . . . . . . . . . . . . . . .30  
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Intellivox DDC | Installation Manual | Introduction  
EN 5  
1.  
Introduction.  
This paper describes the factory recommended  
installation procedure for the Bosch Security Systems’  
Intellivox range of controlled loudspeaker-arrays.  
This type of loudspeaker-array is equipped with an on-  
board Digital Signal Processor (DSP) module. This  
manual describes mechanical matters like mounting  
hole positions and outlets for cable feed-through, as  
well as information for wiring of the connectors.  
A very important parameter is the mounting height.  
This parameter can be very confusing, because during  
the acoustical design process the height of the  
acoustically active part of the column is optimized,  
while during installation the issue of interest is the  
physical mounting height of the column. Unfortunately  
there is no fixed relation between these two, because  
the exact position of the acoustical part of the array  
inside the enclosure is depending on the location of the  
electronics module. In the standard LBC 325x/00  
versions of the Intellivox, the electronics module is  
mounted in the lower end of the enclosure (as it is  
shown in Fig 1). The LBC 325x/10 versions however,  
have the electronics module mounted at the top end.  
Because of the extreme tight vertical radiation pattern  
of the Intellivox, a small deviation from the calculated  
acoustical mounting height may cause severe  
degradation of the expected performance.  
Reference point for  
acoustical mounting  
height  
Connector  
compartment  
For this reason the designer is advised to define two  
mounting heights, a physical mounting height which  
refers to the physical bottom side of the enclosure, and  
an acoustical mounting height, referring to the on-axis  
location of the loudspeaker at the lowest position.  
Electronics  
module  
Reference point for  
physical mounting  
height  
Although the physical mounting positions are of  
primary concern to the contractor, a quick check of the  
acoustical height during installation will confirm the  
integrity of the original acoustical design.  
Fig 1  
Intellivox-2c shown without front grill.  
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Intellivox DDC | Installation Manual | Installation Guide  
EN 6  
Unless otherwise stated by the designer, the Intellivox  
column with a-symmetrically placed transducers,  
should be mounted with the ‘high frequency acoustical  
center’ at the lowest position.  
2. Installation guide  
This chapter deals with the practical aspects of  
installing the Intellivox loudspeaker column.  
SI units are used as a default, all mentioned  
dimensions are stated in meters or millimeters.  
The Intellivox is mains powered, the mains ground  
terminal should always be connected to a proper safety  
ground. Other safety regulations may also require a  
separate mains distribution network or an un-  
interruptible mains power supply (UPS).  
Unless stated otherwise, column dimensions refer to  
the standard Intellivox-2c, which has the electronics  
module mounted at the low end of the enclosure.  
Dimensions of other Intellivox models can be taken  
from the appropriate datasheet.  
The Intellivox requires a signal source. For this  
purpose preferably a symmetrical line level (0 dBV)  
signal can be used. Alternatively the audio input can  
be supplied by an existing 70V/100V network (if the  
default transformer balanced input board is installed).  
Refer to chapter 3.2 and chapter 2.4 for more  
information.  
2.1 Items in the box.  
The following items are shipped with each Intellivox  
column:  
Description  
Pieces  
The Intellivox is equipped with a RS-485 network  
interface. This interface serves two basic purposes. The  
first one is to adjust all relevant parameters (i.e. gain,  
‘steering’ angle) during installation. Secondly it might  
be used to integrate the Intellivox into a network for  
continuous surveillance and ‘on line’ control. In cases  
where these last mentioned network options are not  
required, the RS-485 wiring can be omitted. One  
should however realize that the existence of network  
wiring greatly simplifies the transfer of the initial  
parameters as well as any future DSP software  
upgrades or functional check-ups, especially in  
situations where a unit is located on a position which is  
hardly accessible. Refer to chapter 3.3 for more  
information about the RS-485 network.  
Mounting brackets  
2
1
1
IEC 3p female mains connector (cable  
socket)  
WAGO series 231 6p input signal connector  
(cable socket with strain relief housing)  
WAGO series 231 5p RS485 signal connector 1  
(cable socket with strain relief housing)  
PVC inserts for WAGO connectors (for 3 1 x 5  
different wire sizes)  
2 x 2 x 5  
Wire insertion tool for WAGO cage  
clamp connector  
1
Table 1 List of shipped items.  
The mounting brackets as well as the connector set  
are packed in one of the top end boxes of the main  
packaging.  
If more then one unit has to be connected to the RS-  
485 RS-485 network network, make sure that every  
unit is set to a unique network address before  
connecting to the RS-485 network. The network  
address can be changed by connecting the individual  
device via an RS-232 to RS-485 adapter to a host PC  
running WinControl the appropriate software. More  
information can be found in the help file of  
WinControl.  
2.2 General considerations.  
As already mentioned, mounting height and position  
are important parameters in relation to the acoustical  
performance of the system. Unless specified otherwise  
by the sound system designer, the Intellivox column  
should be mounted in a position exactly perpendicular  
to the listening plane. Contrary to a conventional ‘low  
Q’ loudspeaker system, minor mechanical  
misalignment may lead to a degraded coverage and  
intelligibility.  
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Intellivox DDC | Installation Manual | Installation Guide  
EN 7  
A simple surveillance function may be realized by  
means of the ‘failure detect’ connection in case the RS-  
485 network interface is not used. Three relay contacts,  
‘normally open’ (NO), ‘normally closed’ (NC) and  
‘common’ (COM) are available on this connector.  
To prevent damage to the loudspeakers due to frozen  
moisture inside the voice-coil gap, each Intellivox is  
equipped with a ‘frost protection’. If the ambient  
temperature drops below a certain threshold the  
internally generated pilot tone for the frost protection  
will be activaded. The aforementioned ambient  
SPL/temperature sensor should be installed for this  
function to operate properly. The switching threshold  
and hysteresis can be adjusted through the RS-485  
interface.  
If the autogain function of the Intellivox is used, a  
separate ambient SPL/temperature sensor has to be  
installed and connected. This automatic volume  
adaptation feature will only function properly if the  
signal, which is detected by the microphone inside the  
sensor, is representative for the diffuse ambient noise  
level. For this reason the sensor should be kept away  
from direct sound sources such as talking people,  
outlets of the air conditioning system or other  
loudspeakers. The implemented software protocol  
freezes the volume setting when an audio signal is  
present in order to prevent ‘hunting’ of the column’s  
gain setting caused by its own acoustical output. All  
relevant autogain parameters can be adjusted by means  
of the RS-485 interface. In practice, the most favorable  
sensor locations are walls or ceilings (height > 3 m)  
within a range of 25 m of the corresponding Intellivox  
(see also chapter 3.4).  
If the ambient temperature is expected to exceed 40°C  
an external fan should be connected to ensure proper  
operation of the Intellivox under all circumstances. For  
this purpose an external 24 V relay should be  
connected to the terminal block marked ‘Fan Relay’.  
Because of the limited drive current an external relay  
must always be used to switch the fan, do not connect  
a fan directly to this terminal! The external relay (if  
connected) will be engaged if the heatsink temperature  
exceeds the threshold. The fan should be mounted on  
a location ensuring sufficient airflow along the heatsink.  
In case the Intellivox is installed outside or in another  
environment with a high expected humidity, the  
electronics should be treated with an insulation  
substance to prevent defects due to condensing  
moisture. If specially ordered, this can be done during  
the manufacturing process.  
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Intellivox DDC | Installation Manual | Installation Guide  
EN 8  
2.3 Wiring and connections.  
2.3.1 Mains power.  
2.4 Signal connections.  
All signal connections are realized by using WAGO  
series 231 cage clamp connectors. A major advantage  
of these connectors is the fact that the connector can  
be fitted without the need for soldering. The  
Be sure that the mains voltage stated on the unit  
complies with the local standard before connecting  
the Intellivox to the mains supply.  
connectors can be used with 0.08 mm2 (AWG 28) to  
2.5 mm2 (AWG 12) wires, both stranded or massive.  
The maximum power consumption of the Intellivox-2c  
model is 450 VA, this figure however is different from  
other models (refer to the appropriate datasheet). The  
Intellivox is equipped with a 3-pin IEC type mains  
inlet / fuse holder. If the fuse needs to be replaced only  
replace with the same value. The IEC cable socket  
which is supplied with the unit is only suited for use  
with stranded wires. The preferred (and most straight  
forward) solution is to feed the Intellivox from a mains  
power outlet situated nearby the unit using an ‘off the  
shelf’ 3 x 0.75 mm2 (AWG 18) IEC mains cable. If the  
mains outlet is located directly behind the Intellivox it  
should be recessed to be able to mount the unit flat to  
the wall.  
The audio and RS-485 signal cable socket is supplied  
with the Intellivox. Also three different sized PVC  
inserts are supplied which can be inserted in the  
connector if small wire sizes are used (usually for the  
audio line input connection). The connector for the  
SPL/temperature measurement is supplied with the  
corresponding sensor. This sensor has to be ordered  
separately. Refer to chapter 3.1 for ordering  
information if the installation requires extra connectors.  
The preferred cable types and the connector pin  
configuration is extensively discussed in chapters 3.2  
and 3.3. All connectors are located in the Intellivox  
connector compartment which is accessible from the  
rear and front side of the column (except Intellivox-1b  
which is only accessible from the rear). A drawing of  
the connector block is shown in Fig 3. A figure similar  
to Fig 3 (right side) can be found at the rear side of the  
panel that covers the connector compartment.  
In case it is necessary to make a connection from  
massive to stranded wires, the use of an appropriate  
clamp is advised. A cross-sectional view of such a  
clamp construction is shown in Fig 2. Refer to chapter  
3.1 for ordering info.  
Fig 2  
WAGO massive to stranded wire clamp.  
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EN 9  
should be completely covered by the blade of the  
screwdriver (refer to Fig 4 which shows the internal  
clamp construction).  
Fig 3  
Intellivox connector block.  
A removable panel on the front side of the  
Intellivox (backside for the Intellivox-1b) allows all  
connectors to be inserted when the unit is already  
mounted.  
5. Push the screwdriver to open the cage clamp, this  
may require some force. If no PVC insert is placed,  
the opening of the clamp is visible in the round  
hole (cable insert) at the top of the connector.  
Proceed as follows to fit a WAGO 231 connector:  
6. Insert the stripped wire into the open cage clamp  
located inside the round hole.  
1. Prepare the cable, about 8 - 9 mm (around 0.35”) of  
the individual wire insulation should be removed.  
7. Remove the screwdriver from the connector, the  
clamp closes and the force exerted on the wire  
automatically adapts to the wire size.  
2. If required insert the appropriate PVC insert for  
small wire sizes (refer to Table 2 on the next page).  
In this way the wire is centered and the insert  
prevents the insulation from entering the clamp  
contact.  
8. Proceed with step 2 until all wires are connected.  
3. A small screwdriver with blade width around  
2.5 mm (0.1”) or a specific wire insertion tool as  
shown in Fig 5 (right side) might be used to open  
the clamp contact.  
4. In case the screwdriver is used: insert it into the  
square hole of the corresponding connector pin as  
shown in the left side of Fig 5. The blade of the  
screwdriver should be inserted far enough into the  
connector. The metal spring of the cage clamp,  
which is visible from the side of the connector,  
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Intellivox DDC | Installation Manual | Installation Guide  
EN 10  
2.5 Methods for mounting the  
Intellivox.  
2.5.1 General.  
For mounting of the Intellivox column there are two or  
three attachment points (depending on the model) each  
consisting of four threaded inserts at the rear of the  
enclosure. One point is located at the upper side, the  
other near the bottom and the third, if existing, at the  
center position. The column should be mounted using  
both locations. All threaded inserts are M5 metric and  
should only be used with the appropriate screws which  
are supplied with the original mounting hardware.  
Fig 4  
WAGO 231 cross-section  
Fig 6  
Standard Intellivox wall bracket, all dimensions in mm.  
There are three options for mounting the Intellivox  
column.  
1. The first (and most often used) mounting method of  
the Intellivox is by means of two or three  
(depending on the model) identical wall brackets.  
The brackets are supplied with each Intellivox and  
come in the same color as the enclosure. A  
technical drawing of the bracket is shown in Fig 6.  
The brackets allow mounting of the Intellivox on a  
straight wall or on a curved surface (pillar) while  
keeping a distance of 25 mm (1.0”) between the  
rear of the enclosure and the wall. Refer to chapter  
2.5.3 for the standard mounting procedure details.  
Fig 5 Connecting a WAGO 231  
2. A second method is to mount the Intellivox using  
swivel brackets which allow the column to be  
positioned in a certain horizontal angle with respect  
to the wall. In this case two or three (depending on  
the model) swivel brackets are needed, one on the  
top side and one at the bottom and one in the  
center position if applicable. The horizontal angle  
of the swivel brackets can be secured by the  
Description  
Wire size  
White PVC insert  
Light gray PVC insert  
Dark gray PVC insert  
0.08 - 0.2 mm2  
0.25 - 0.5 mm2  
0.75 - 1.0 mm2  
Table 2 PVC insert sizes.  
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Intellivox DDC | Installation Manual | Installation Guide  
EN 11  
hexagonal nut. The swivel brackets are mounted to  
the rear of the enclosure by four M5 pan head  
screws (factory supplied). Refer to Table 4 in  
chapter 3.1 for ordering information.  
The threaded inserts are M5 metric and the depth  
is 16 mm.  
It is advised to keep the rear side of the Intellivox  
free from the wall in order to prevent unwanted  
resonances.  
3. The third method is to mount the column directly  
to a wall or a dedicated mounting panel by means  
of spacers and screws through the mounting  
surface. In this case extra attention should be paid  
to the following aspects:  
2.5.2. Measures and dimensions.  
As mentioned earlier all enclosure dimensions refer to  
the Intellivox-2c. Other models or custom supplied  
Fig 7  
LBC 3253/00 Intellivox-2c dimensions, all measures in mm  
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EN 12  
columns can differ substantially from the 2c model.  
Mechanical drawings of the other models can be found  
in chapter 3.5 or in the respected datasheet.  
6. Remove the cover of the connector compartment.  
Make sure the panel is not interchanged with the  
panel of another unit, because this will also  
exchange the external serial numbers.  
Fig 7 - The LBC 3253/00 dimensions are shown,  
including the vertical spacing between the upper and  
the lower bracket as well as the vertical offset of the  
acoustical reference.  
7. Lift the column and slide the brackets over the  
heads of the screws. Make sure all cabling is fitted  
through the connector compartment and accessible  
from the front side.  
2.5.3 Mounting procedure.  
8. Firmly fasten the screws which secure the brackets  
to the wall.  
A short general mounting procedure is described, the  
actual procedure may differ slightly depending on the  
actual circumstances and the chosen mounting method.  
It is assumed that the cabling is already prepared and  
all connectors are fitted as described in chapter 2.3 and  
2.4.  
9. Re-check if the column is in an exact perpendicular  
position or in the vertical angle that is specified.  
10. Insert the connectors and reassemble the connector  
compartment cover and the grill(s).  
The recommended procedure is as follows:  
1. Use plugs in combination with hexagon head  
screws, this allows the use of a flat key that fits  
behind the bracket to fasten the screws. Select a  
type with a maximum head size not exceeding  
11.5 mm (0.45”).  
2. Drill the holes for attachment of the brackets into  
the wall. It is advised to make use of the slotted  
holes (two for each bracket, refer to Fig 6) for  
standard vertical mounting of the column.  
3. Insert the plugs and screws into the holes. It should  
be possible to slide the bracket over the heads.  
Check this with a bracket before mounting it to the  
column).  
4. Check if the chosen mounting holes ensure that the  
final position of the column will be in the vertical  
angle that is specified (which is usually exactly  
perpendicular to the listening area). Use extra  
spacers if necessary.  
5. Remove the front grill(s) of the Intellivox before  
mounting the unit and remove the protection foam.  
This can be accomplished by gently lifting the grill  
at the positions of the ‘snap-in’ fittings which hold  
the grill.  
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Intellivox DDC | Installation Manual | Appendix  
EN 13  
3. Appendix.  
3.1 Reference part list.  
Connectors for external wiring.  
Terminal  
RS-485  
Description  
Manufacturer  
WAGO  
Manufacturer code  
231-105/026-000  
Wago cage clamp connector 5 pin  
female 5 mm pitch  
Audio input  
Wago cage clamp connector 6 pin  
female 5 mm pitch  
WAGO  
WAGO  
231-106/026-000  
231-605  
Failure, Fan, Ambient  
SPL and Temperature  
Wago cage clamp connector 5 pin  
male 5 mm pitch  
Table 3 Intellivox external connectors details.  
2. Reduction of RF emission. Although the  
Intellivox electronics module is well shielded and  
external connections are de-coupled to prevent RF  
emission from the internal high speed digital  
circuits, this protection will not work properly when  
the chassis has no solid ground reference.  
Other installation related accessories.  
Description  
Type Number  
Intellivox swivel bracket 90°  
Intellivox swivel bracket 45°  
LBC 3270/00  
LBC 3271/00  
3. Immunity. The GND terminal shorts currents  
which are induced by (RF) fields in the signal  
cables effectively to chassis-ground, provided that  
the cable shield is of sufficiently low impedance.  
Ambient mic. and temperature sensor LBC 3262/00  
Table 4 Specific installation related accessories.  
Other network related accessories.  
To make things even more complex, the RS-485  
terminal of the chassis also has a DGND pin, while the  
ambient SPL/temperature terminal has both GND and  
AGND pins.  
Description  
Type Number  
LBC 3260/00  
Program set  
The pins labeled GND are connected directly to the  
chassis.  
(Adapter cable+RS-232 to RS-485  
adapter+ WinControl CD-Rom)  
Table 5 Specific network related accessories  
The RS-485 DGND pin is not a ground pin, but serves  
as a reference for the RS-485 AB and YZ wires.  
Although the DGND pin should be connected to the  
shielding of the RS-485 cable (when in use), DGND  
(and ABYZ) has no relation to GND except for the  
fact that the voltage between DGND and GND is  
clamped to a maximum voltage of 50 V for reasons of  
safety and immunity. In an installation with a  
connected network, the RS-485 cable shield must be  
grounded at some central position.  
3.2Grounding strategy.  
The ground (GND) terminals on the electronics  
module serve different purposes.  
1. Safety. The GND terminal located at the mains  
IEC connector provides a direct low impedance  
path from the metal parts of the chassis to ground.  
In conjunction with a proper designed mains  
distribution network, this offers extra safety in  
situations where the standard class 2 insulation is  
not sufficient (fire, moisture etc.). Always connect  
the IEC ground terminal.  
DGND should not be connected to any other  
ground pin (GND or AGND) on the chassis.  
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Intellivox DDC | Installation Manual | Appendix  
EN 14  
The AGND pin serves as a reference for the SPL and  
temperature measuring input circuitry. To keep this  
ground signal as clean as possible, the AGND wires  
together with the MIC and the NTC signal should be  
run through a shielded cable. The shield should be  
connected to the GND pin of this terminal block.  
Because safety is a very important issue, the safety  
ground pin of the IEC mains connector should  
always be connected to a low impedance ground  
network.  
If the standard solution is chosen to be connected the  
audio (line level) inputs the grounding situation is  
according to Fig 9.  
AGND should not be connected to any other  
ground pin (GND or DGND) on the chassis.  
Fig 8  
Ground configuration of the Intellivox chassis.  
Fig 9  
Standard grounding configuration  
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Intellivox DDC | Installation Manual | Appendix  
EN 15  
Although in terms of safety and immunity this is the  
most preferable set up, an unwanted ground loop is  
created which can cause audible noise or hum. The  
appearance of this effect is strongly depending on the  
cable routing, the design of the grounding scheme and  
the existence of local magnetic fields (caused by power  
transformers, railway chopper supplies etc.). If a  
ground loop occurs, the most straight forward solution  
to the problem is to interrupt the ground path from the  
shielding of the audio signal wiring. This situation is  
shown in Fig 10.  
The audio input transformers feature a very high  
Common Mode Rejection Ratio (CMRR), this means  
that an interfering signal which is coupled onto both  
the audio + and - signal wires is strongly rejected  
compared to the differential audio signal.  
Unfortunately, this high CMRR is only achieved at  
low frequencies (<100 Hz) and deteriorates for higher  
frequencies. In order to restore the original grounding  
configuration for the HF part of the spectrum, it is  
good a practice to connect a 100 nF capacitor between  
the shielding of the audio cable and the GND pin of  
the terminal block (see Fig 11).  
Fig 10 Grounding configuration with totally decoupled  
audio ground  
Fig 11 Grounding configuration with low frequency  
decoupled audio ground  
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EN 16  
In order to restore the galvanic safety path of the signal The method described is also well suited for  
wiring up to a certain level, it is possible to connect a  
100 OHMS 1W resistor parallel with the 100nF  
capacitor. The isolation of the low frequency ground  
loop is partly canceled by this resistor, but the  
reduction of the induced noise can still be sufficient  
while at the same time some of the benefits of the  
original concept are restored. A diagram of this  
solution is shown in Fig 12.  
installations with multiple distributed units on one  
signal source. If only one chassis is connected,  
interruption of the loop near the signal source is  
theoretically a better option, although this method can  
cause problems if the output of the audio source is not  
equipped with a transformer (electronically differential  
output). Due to the capacitive coupling of the (remote  
grounded) shield, it is possible that a common mode  
Fig 12 Ground configuration with audio ground partly  
decoupled for low frequencies  
interference signal is injected into the output terminals  
of the source that may cause misbehavior of the  
electronical driver circuit.  
General strategy  
The best approach is to interrupt the ground loop just  
far enough to get rid of the disturbing effects of it.  
Therefore it is advised to start with the full grounded  
configuration (Fig 9), if this causes problems try 100  
OHMS // 100nF (Fig 12), next leave 100 OHM off  
(Fig 11) and the final solution might have to be the  
most rigorous method (Fig 10) which will introduce the  
danger of trading the hum for RFI problems.  
In case the chassis is connected to a 100 V or 70 V  
distributed system, no ground loop can occur. The  
configuration resembles the total decoupled ground  
configuration in Fig 10. To adapt the input transformer  
to the much higher 70 V / 100 V signal level, the input  
is internally attenuated by a differential mode divider  
network. This means that the common mode sensitivity  
of the attenuated 70 V / 100 V input is not different  
from the 0 dB input. If any problems occur caused by  
common mode induced RFI, a possible solution is to  
reduce the common mode impedance for high  
frequencies by adding two 100 pF capacitors as shown  
in Fig 13. For optimum CMRR the values of the  
capacitors should be matched as close as possible. An  
optional ferrite clamp can be used in combination with  
the capacitors to enhance the performance of the filter.  
For longer cable runs (> 50m)  
Use low output impedance balanced signal sources,  
preferably transformer balanced. The CMRR for  
higher frequencies will be heavily degraded if the  
impedance with respect to ground of both + and -  
signal lines is not equal (as with unbalanced outputs).  
Degraded CMRR can also be caused by poor quality  
cable due to asymmetrical capacitive properties of the  
core.  
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EN 17  
3.3 Some notes on the RS-485  
Fig 13 Optional high frequency decoupling for 70 V /  
100 V systems.  
network interface.  
In order to integrate the unit in a surveillance and  
control network a full duplex RS-485 terminal is  
incorporated. The RS-485 standard is chosen for the  
ability of driving long cables, the simplicity of the  
network topology and high immunity to external  
electromagnetic fields which results in low error rates.  
A disadvantage of the full duplex set up is the required  
5 wire interface. The RS-485 interface on the unit  
exists of a differential input port (AB), a differential  
output port (YZ) and a dedicated network ground  
terminal (DGND).  
Conclusion:  
Because the Intellivox can be a part of a complex  
installation it is impossible to prescribe a fixed  
grounding strategy that will perform best in all  
situations. Safety, immunity and reduction of emission  
are very important issues that should always determine  
the ground configuration that is applied.  
This appendix describes some methods to eliminate  
possible noise caused by ground loops without  
sacrificing safety or emission, although a minor  
degradation of the immunity can be expected which is  
depending on the configuration chosen.  
Fig 14 Structure of the RS-485 network  
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EN 18  
In practice, termination resistors will only be needed in  
combination with large cable lengths and large stub  
lengths.  
Network configuration.  
A network is composed of one master device and one  
or more slave devices. A master device can exist of a  
PC running the RS-485 network WinControl software  
and a RS-232 to RS-485 converter. All slave devices  
are wired in parallel, the master device is connected  
with the AB and YZ terminals interchanged (see Fig  
14).  
Cable type  
The required cable type for implementation of the  
network is twin twisted cable of which both twisted  
pairs are individually shielded.  
Because all slave devices share the same bus, the  
outputs (YZ) of these units are only enabled during  
transmission of data from the unit to the master. The  
implemented network protocol sets the output of all  
other units in a high impedance state during this  
period to prevent conflicts. For this reason each device  
has its own network address.  
An example of a preferred extended range cable type  
is:  
Type: BELDEN ‘Datalene’ series nr. 9729 2-pairs  
Characteristic impedance :  
Core to core capacity :  
Core to shield capacity :  
DC resistance core :  
100 Ohms  
41 pF/m  
72.5 pF/m  
78.7 Ohms/km.  
59.1 Ohms/km.  
The official RS-485 standard limits the amount of  
nodes to 32. This is mainly because of the low  
resulting network impedance when all units are  
connected. The chassis is equipped with a new  
generation high impedance RS-485 transceivers,  
increasing the maximum node count from 32 to 256.  
DC resistance shield :  
This cable has a foil shielding with drain wire and a  
tinned litze core.  
The RS-485 network protocol limits the amount of  
slave addresses to 126 and allows one master device.  
Cable length  
The maximum cable length is heavily depending on  
the cable characteristics and the baud rate. The RS-485  
network baud-rate is 19200 bits/s which is relatively  
low for the RS-485 transmission path. Using low  
capacity low resistance cable the maximum length  
specified for safe transmission is 1500 m. If the distance  
is significantly longer, a network repeater will be  
needed.  
Fig 15 Connection of twin twisted network cable to  
the unit  
Alternative cable types are  
: Belden 1902A or equivalent.  
: BICC Brand-Rex H9002  
AWM 2493  
Cable termination  
According to the official RS-485 standard, the network  
should be terminated with 120 OHM resistors at both  
ends of each pair, while the length of the stub lines  
should not exceed 7 m. The RS-485 transceivers,  
which are implemented in the chassis, are slew rate  
limited which minimizes reflections from open cable  
lengths. This fact, in combination with the relative low  
baud-rate, makes the network very tolerant to stub  
lengths or improper termination.  
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EN 19  
Master device  
As mentioned before the RS-485 network concept  
needs one master device. This master device (network  
controller) is composed of a PC running WinControl  
and a RS-232 to RS-485 adapter connected to the RS-  
232 port of the PC. Detailed information about the  
WinControl program can be found in the related help  
file.  
The RS-232 to RS-485 adapter is a small 9-pin sub-D  
device which can be connected to one of the computer’s serial  
COM ports. In the normal case the adapter is directly powered  
from the RS-232 terminal of the PC. The RS-232 to RS-485  
adapter is not galvanically isolated. The adapter is intended  
for network connections during installation, maintenance or  
operation whenever control over specific process parameters is  
needed. In conjunction with the adapter a dedicated cable is  
needed with a 9-pin sub-D female connector and a WAGO  
cage clamp connector (see Table 6 to Table 8).  
Master (PC)  
9p sub-d  
Slave (unit)  
5p cage clamp  
5p XLR  
RS-485 Y (+send)  
RS-485 Z (-send)  
RS-485 B (-receive)  
RS-485 B (+receive)  
Ground  
3
RS-485 A (+ receive)  
RS-485 B (- receive)  
RS-485 Z (- send)  
RS-485 Y (+send)  
DGND  
1
2
3
4
5
-
5
4
3
2
1
-
8
2
7
1,4,5,6  
9
External +9V DC (optional)  
-
Table 6 RS-485 connection cable for use with RS-232  
to RS-485 adapter.  
RS-232 description  
RS-232 pin #  
RS-485 desciption  
GND  
RS-485 pin #  
NC  
1
2
3
4
5
6
7
8
9
1
2
3
4
5
6
7
8
9
RX  
RS-485 B (-receive)  
RS-485 Y (+send)  
GND  
TX  
DTR  
GND  
DSR  
RTS  
CTS  
+9 V  
GND  
GND  
RS-485 B (+receive)  
RS-485 Z (-send)  
+9 V DC  
Table 7 RS-232 pin description of the RS-232 to RS-  
485 adapter.  
Table 8 RS-485 pin description of the RS-232 to RS-  
485 adapter  
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EN 20  
Notes for type RS-232 to RS-485 adapter:  
The implemented software protocol freezes the volume  
setting when an audio signal is present in order to  
prevent ‘hunting’ of the column’s gain setting caused  
by its own radiated acoustical energy.  
Both ends of the RS-232 to RS-485 connector have  
the same 9p female sub-d connector. Be careful to  
install it in the proper way.  
Although the circuit of the combined sensor is not  
complex, the specific characteristics are very  
important for a correct interpretation of the  
measured values. For this reason it is strongly  
advised to use the appropriate factory tested sensor  
(see chapter 3.1 for order codes).  
The +9 V (pin 9) at the RS-232 side of the adapter  
should be connected to an external + 9 V / 50 mA  
DC power supply in case the power delivered by  
the PC (RTS or DTR) is insufficient. This might be  
the case with large cable lengths.  
RTS and CTS are internally connected, DTR and  
DSR are also internally connected.  
Wiring.  
For reasons of RFI immunity and optimum noise  
characteristics two different ground terminals are  
implemented. The terminal labeled GND is connected  
directly to the chassis, while the terminals labeled  
AGND are reference ground terminals.  
3.4 LBC 3262/00 Ambient SPL and  
temperature sensor.  
Description.  
GND and AGND should be kept apart under all  
circumstances!  
The Intellivox electronics module is equipped with an  
external terminal (labeled ambient noise / temp) to  
connect a sensor for the ambient SPL and temperature  
measurement. Although the unit is able to operate  
normally without the sensor, it is needed when the  
auto gain function or the frost protection is used.  
For correct wiring an asymmetrical shielded 2 way  
cable with overall shield is advised. Alternatively the  
twin twisted cable, which is also optionally in use for  
the RS-485 network interface, can be used. Reference  
source not found. (next page) show the correct wiring  
diagram for both cables.  
The temperature is measured by a NTC resistor. By  
means of a software correction table the non-linear  
resistance characteristics of the NTC are compensated  
and converted into a degree scale. The SPL is  
measured by an electret microphone, rectified and  
converted to a dB scale. The microphone is powered  
by the amplifier module through the connector.  
Location of the sensor.  
Both NTC and microphone are mounted in a single  
compact enclosure which can be located at a certain  
distance from the column. In most situations the best  
location is determined by the microphone (see also  
chapter 2.2). The auto gain will only work correctly if  
the diffuse ambient noise level is used as a reference.  
This means that the microphone should be kept away  
from direct sound sources such as talking people,  
outlets of the air conditioning system or other  
loudspeakers.  
Fig 16 Wiring configuration using asymmetrical cable  
type  
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EN 21  
Fig 17 Wiring configuration using RS-485 network  
cable type.  
Ambient SPL and temperature sensor  
connections.  
Figure 18 and 19 show the wiring configurations for the  
sensor with the two cable types.  
Fig 18 Wiring configuration at the sensor using  
asymmetrical cable type  
Fig 19 Wiring configuration at the sensor using RS-  
485 network cable type  
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EN 22  
3.5 Intellivox dimensions of the  
different models.  
Fig 20 LBC 3251/00 Intellivox-1b dimensions, all measures in mm.  
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EN 23  
Fig 21 LBC 3252/00 Intellivox-2b dimensions, all measures in mm  
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EN 24  
Fig 22 LBC 3252/10 Intellivox-2b dimensions, all measures in mm  
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EN 25  
Fig 23LBC 235/030 Intellivox-2c dimensions, all measures in mm  
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EN 26  
Fig 24 LBC 3253/10 Intellivox-2c dimensions, all measures in mm  
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EN 27  
Fig 25 LBC 3254/00 Intellivox-4c dimensions, all measures in mm.  
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EN 28  
Fig 26 LBC 3254/10 Intellivox-4c dimensions, all measures in mm.  
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EN 29  
Fig 27 LBC 3256/00 Intellivox-6c dimensions, all measures in mm  
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EN 30  
Fig 28 LBC 3256/10 Intellivox-6c dimensions, all measures in mm  
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Robert Bosch GmbH  
Geschäftsbereich  
Postfach 10 60 50  
70049 Stuttgart  
Bosch Security Systems B.V.  
P.O. Box 80002  
5600 JB Eindhoven  
The Netherlands  
Telefax (0711) 811-12 34  
Tele +31 40 27 80000  
© 2003 Bosch Security Systems GmbH  
9922 141 50511en  
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